Etude de la structure nucléaire de noyaux exotiques à ALTO : développements et résultats de deux nouvelles installations / Study of the nuclear structure of exotic nuclei at ALTO : developments and results of two new experimental setups

Étilé, Asénath

10 December 2014

ALTO (Accélérateur Linéaire et Tandem d’Orsay) est une installation équipée de deux accélérateurs pour la recherche et les applications industrielles (un tandem de 15 MV et une accélérateur linéaire). Mon travail de thèse consiste à l’instrumentation pour la recherche fondamentale de la partie accélérateur linéaire d’ALTO qui fournir des faisceaux de noyaux radioactifs. Les faisceaux de noyaux radioactifs riches en neutrons sont produits par la technique de séparation isotopique en ligne (ISOL). Cette méthode de production permet trois types d’expérience : la mesure de masse, l’orientation nucléaire et les expériences de décroissances radioactives. Parmi ces trois types d’expériences, j’ai participé aux développements de deux nouvelles plateformes expérimentales dans le cadre du projet de l’instrumentation de l’installation ISOL d’ALTO. Le premier, BEDO (BEta Decay studies in Orsay) est un ensemble de détecteurs dédié à la spectroscopie β-γ des noyaux décroissants par désintégration β produits par ALTO. Je présente ici, la mise en fonctionnement de cette plateforme expérimentale, ses caractéristiques techniques et les développements d’outils permettant d’aboutir aux premiers résultats. Pour cette expérience un faisceau de la masse 82 a été produit, saisissant cette opportunité, une ré-investigation de la décroissance de ⁸²Ge vers ⁸²As a permis d’établir un nouveau schéma de niveaux pour ⁸²As et de donner les premières indications de la présence d’états issus de configurations intruses dans les isotones impair-impair N=49. Le second projet développé est POLAREX (POLARization of EXotic nuclei), il s’agit d’une plateforme expérimentale dédiée aux expériences d’orientation nucléaire. Mon travail traite ici de l’entière réhabilitation du cryostat à dilution ³He-⁴He (élément principal et le plus complexe de l’installation) et des développements techniques et R&D apportés à l’ensemble de la plateforme. L’ensemble de ces contributions a permis la validation du fonctionnement de l’installation avec les premières mesures physiques sur les noyaux de ⁵⁴Mn, ⁵⁶Co, ⁵⁷Co créés par activation d’une feuille de Fer avec des deutons produits par le Tandem. / ALTO (Accélérateur Linéaire et Tandem d’Orsay) is a facility composed of two accelerators dedicated to research and industrial applications. There is a 15 MV tandem and a linear accelerator. My PhD work was to develop the instrumentation of the linear accelerator part of ALTO which provides radioactive beams for fundamental research. These radioactive beams are produced using the Isotope Separation On-Line method (ISOL). This technique allows three kinds of experiments: mass measurement, nuclear orientation and radioactivity experiments. Among those three types of experiments, I worked on the development of two new experimental platforms for the ALTO instrumentation. The first one, BEDO (BEta Decay studies in Orsay) is an ensemble of detectors dedicated to β-γ spectroscopy of β-decaying nuclei produced by ALTO. I present in this thesis, the commissioning of this new experimental set-up, its technical characteristics and the tools development leading to the first results. For this commissioning experiment a mass 82 radioactive beam was produced, taking this opportunity the ⁸²Ge vers ⁸²As decay was re-investigated allowing to establish a new level scheme for ⁸²As and giving the first evidences for the presence of intruder states in the N=49 odd-odd isotones. The second project, which is developed, is POLAREX (POLARization of EXotic nuclei), a new facility for nuclear orientation experiments. My thesis deals with the entire reconditioning of a ³He-⁴He dilution refrigerator (major and most complex element of the facility) and R&D and technical developments of the platform. These contributions allowed the successful commissioning of the new experimental platform with the first physical measurements on ⁵⁴Mn, ⁵⁶Co, ⁵⁷Co created by activation of an iron foil with deuterons produced by the Tandem.

Structure nucléaire

Cryogénie

Moment magnétique

Spectroscopie

Décroissance β

Interactions hyperfine

Nuclear structure

Cryogenics

Magnetic moment

Spectroscopy

. β decay

Hyperfine interactions

ESR observation of optically generated solitons in the quasi-one-dimensional iodo-bridged diplatinum complex Pt_2(n-pentylCS_2)_4I

Tanaka, Hisaaki, Nishiyama, Hideshi, Kuroda, Shin-ichi, Yamashita, Takami, Mitsumi, Minoru, Toriumi, Koshiro

07 1900

No description available.

EPR line breadth

hyperfine interactions

optical solitons

organic compounds

platinum compounds

spectral line intensity

spectral line narrowing

Hyperjemné interakce v magnetitu a maghemitu / Hyperfine interactions in maghemite and magnetite particles

Křišťan, Petr

January 2011

Thesis is aimed at studying of magnetic iron oxide particles of submicron and nanoscale dimensions by means of nuclear magnetic resonance (NMR). 57 Fe NMR inves- tigations were carried out in composite bentonite/maghemite with respect to tempera- ture of calcination (Tcalc) during the sample preparation and in magnetite submicron powders with respect to various range of the particles size. One of the main findings is that increasing Tcalc improves resolution in the NMR spectra, which is most likely connected with higher degree of atomic ordering in the spinel structure. Evaluating the integral intensities of NMR spectra allowed us to determine the relative content of maghemite phase in particular samples of the series: the content rapidly grows for Tcalc up to ∼420 deg. An approach to distinguish signal from tetrahedral and octahedral irons was developed and tested on pure maghemite sample. Analysis based on vacancy- distribution models was performed in the spinel structure and the results were compared to the experiment. 57 Fe NMR spectra in submicron magnetite samples were found to differ markedly from spectrum of a single crystal. It was concluded that the investigated powders possess high amount of defects in the crystal structure or contain additional phase (probably closely related to the maghemite phase).

Cálculos ab initio de interações entre Cd e bases nitrogenadas do DNA / Ab Initio calculations of interactions betweeen Cd and nitrogenous bases o DNA

Petersen, Philippe Alexandre Divina

11 May 2011

As interações hiperfinas são uma ótima ferramenta para estudar um sítio específico e obter informações importantes sobre o sistema. No presente trabalho analisamos de forma teórica as propriedades eletrônicas, estruturais e hiper nas do Cádmio (Cd) ligado às bases nitrogenadas do DNA. A motivação surgiu da colaboração com o grupo do prof. Artur W. Carbonari do Instituto de Pesquisas Energéticas e Nucleares (IPEN) e que tem como objetivo investigar o DNA e anticorpos de linhagens de camundongos infectados pela cepa Y de Trypanosoma cruzi, protozoário causador da doença de Chagas. A técnica Time Differential Perturbed Angular Correlation (TDPAC) foi utilizada para obter as medidas das interações hiperfinas do DNA. O núcleo de prova das medidas foi o 111Cd. Utilizamos uma abordagem quântica ab initio all-electron, dentro da Teoria do Funcional da Densidade (DFT), através do código computacional CP-PAW que combina o método Projector Augmented Wave (PAW) e a dinâmica molecular quântica de Car-Parrinello (CPMD). Ressaltamos que, até o presente momento, nenhum estudo com esta abordagem teórica e com este código computacional foi realizado para investigar as propriedades hiper nas do Cd ligado as bases nitrogenadas do DNA. / The Hyperfine interactions are good tools to study speci c sites and obtain important information about a given system. In this work we study electronic, structural and hyper ne properties of the Cadmium (Cd) coordinated to the DNA nitrogenous bases. The motivation for this study arose from a collaboration with the group of prof. Arthur W. Carbonari at the Institute of Energy and Nuclear Research (IPEN), which aims to investigate DNA and antibodies to strains of mice infected with the Trypanosoma cruzi, the protozoan that causes Chagas disease. The Time Differential Perturbed Angular Correlation (TDPAC) technique was used to obtain hypefine interactions measurements at a Cd probe bonded to DNA. We use ab initio all-electron calculations, within the Density Functional Theory (DFT) and we use the computer code CP-PAW that combines the Projector Augmented Wave (PAW) method and the Car-Parrinello (CP) quantum molecular dynamics approach to. We emphasize that, until now, no study with this theorectical approach and with this computer code was conducted to investigate the hyper ne properties of the Cd binding to the DNA bases.

Chagas disease

DFT

DFT

DNA

DNA

Doença de chagas

Electric field gradient

Gradiente de campo elétrico

Hyperfine interactions

Interações hiperfinas

Método PAW

Organometálicos

Organometallic

PAW method

Cw and pulsed EPR spectroscopy of Cu(II) and V(IV) in metal-organic framework compounds: metal ion coordination and adsorbate interactions

Jee, Bettina

24 October 2013

Metal-organic framework (MOF) compounds as a new class of porous coordination polymers consists of metal ions or clusters linked by organic molecules. They have gained recent interest because of their large surface areas and huge variety of the porous network structures. They exhibit interesting adsorption properties and therefore are potential candidates for various technical applications. In this work, continuous wave (cw) and pulsed electron paramagnetic resonance (EPR) methods such as pulsed electron-nuclear double resonance (ENDOR) and hyperfine sublevel correlation (HYSCORE) spectroscopy are applied to study metal-organic frameworks with respect to different aspects of their properties: The host-guest interactions between Cu2+ ions in [Cu3(btc)2]n (HKUST-1; btc: 1,3,5-benzenetricaboxylate) with adsorbed methanol (CH3OH), 13C enriched carbon monoxide and dioxide (13CO, 13CO2), hydrogen (H2), deuterium (D2) and mixed isotopic HD. In [Cu3(btc)2]n, the Cu2+ ions are connected to binuclear Cu/Cu paddle wheel units. Since the Cu2+ ions in the [Cu3(btc)2]n are antiferromagnetically coupled, the new compound [Cu2.97Zn0.03(btc)2]n is synthesized by isomorphous substitution containing about 1 % paramagnetic Cu/Zn paddle wheel units. The modified Cu/Zn paddle wheel units prove to be a very sensitive probe for the interactions with the adsorbed molecules. Secondly, the exchange interactions of antiferromagnetically coupled Cu/Cu paddle wheel units as well as additional inter-paddle wheel exchange interactions between the Cu/Cu pairs are studied in [Cu2(bdc)2(dabco)]n, a layered MOF with 1,4-benzenedicaboxylate (bdc) as linker and 1,4-diazabicyclo[2.2.2]octane (dabco) acting as pillars between the layers. In comparison to [Cu3(btc)2]n, the additional inter-paddle wheel exchange interactions are much easier disturbed by incorporation of Zn2+ ions into the framework structure. Third, the structural dynamics of the framework is investigated in the compound [Al(OH)(bdc)]n (MIL-53) which was isomorphously substituted by V(III)/V(IV) species. The 51V hyperfine structure revealed to be sensitive to the so-called breathing effect, a flexible structural behaviour upon guest adsorption/desorption or upon thermal treatment. It is shown that the aluminum ions can be substituted by vanadium but the octahedral coordination environment changes slightly to a pseudo-octahedral or a square-pyramidal coordination. Based on the hyperfine interactions between the electron spin and the nuclear spins of the surrounding atoms, structural models can be derived from orientation-selective measurements. In such a way, structural information of materials like powder samples and adsorbate complexes can be obtained which are hardly or even not accessible by other methods.

EPR-Spektroskopie

ENDOR

HYSCORE

metal-organic framework

poröse Materialien

Hyperfeinwechselwirkung

EPR spectroscopy

ENDOR

HYSCORE

metal-organic framework

porous materials

hyperfine interactions

ddc:530

Cálculos ab initio de interações entre Cd e bases nitrogenadas do DNA / Ab Initio calculations of interactions betweeen Cd and nitrogenous bases o DNA

Philippe Alexandre Divina Petersen

11 May 2011

As interações hiperfinas são uma ótima ferramenta para estudar um sítio específico e obter informações importantes sobre o sistema. No presente trabalho analisamos de forma teórica as propriedades eletrônicas, estruturais e hiper nas do Cádmio (Cd) ligado às bases nitrogenadas do DNA. A motivação surgiu da colaboração com o grupo do prof. Artur W. Carbonari do Instituto de Pesquisas Energéticas e Nucleares (IPEN) e que tem como objetivo investigar o DNA e anticorpos de linhagens de camundongos infectados pela cepa Y de Trypanosoma cruzi, protozoário causador da doença de Chagas. A técnica Time Differential Perturbed Angular Correlation (TDPAC) foi utilizada para obter as medidas das interações hiperfinas do DNA. O núcleo de prova das medidas foi o 111Cd. Utilizamos uma abordagem quântica ab initio all-electron, dentro da Teoria do Funcional da Densidade (DFT), através do código computacional CP-PAW que combina o método Projector Augmented Wave (PAW) e a dinâmica molecular quântica de Car-Parrinello (CPMD). Ressaltamos que, até o presente momento, nenhum estudo com esta abordagem teórica e com este código computacional foi realizado para investigar as propriedades hiper nas do Cd ligado as bases nitrogenadas do DNA. / The Hyperfine interactions are good tools to study speci c sites and obtain important information about a given system. In this work we study electronic, structural and hyper ne properties of the Cadmium (Cd) coordinated to the DNA nitrogenous bases. The motivation for this study arose from a collaboration with the group of prof. Arthur W. Carbonari at the Institute of Energy and Nuclear Research (IPEN), which aims to investigate DNA and antibodies to strains of mice infected with the Trypanosoma cruzi, the protozoan that causes Chagas disease. The Time Differential Perturbed Angular Correlation (TDPAC) technique was used to obtain hypefine interactions measurements at a Cd probe bonded to DNA. We use ab initio all-electron calculations, within the Density Functional Theory (DFT) and we use the computer code CP-PAW that combines the Projector Augmented Wave (PAW) method and the Car-Parrinello (CP) quantum molecular dynamics approach to. We emphasize that, until now, no study with this theorectical approach and with this computer code was conducted to investigate the hyper ne properties of the Cd binding to the DNA bases.

DFT

DNA

Doença de chagas

Gradiente de campo elétrico

Interações hiperfinas

Método PAW

Organometálicos

Chagas disease

DFT

DNA

Electric field gradient

Hyperfine interactions

Organometallic

PAW method

Cw and pulsed EPR spectroscopy of Cu(II) and V(IV) in metal-organic framework compounds: metal ion coordination and adsorbate interactions

Jee, Bettina

25 September 2013

Metal-organic framework (MOF) compounds as a new class of porous coordination polymers consists of metal ions or clusters linked by organic molecules. They have gained recent interest because of their large surface areas and huge variety of the porous network structures. They exhibit interesting adsorption properties and therefore are potential candidates for various technical applications. In this work, continuous wave (cw) and pulsed electron paramagnetic resonance (EPR) methods such as pulsed electron-nuclear double resonance (ENDOR) and hyperfine sublevel correlation (HYSCORE) spectroscopy are applied to study metal-organic frameworks with respect to different aspects of their properties: The host-guest interactions between Cu2+ ions in [Cu3(btc)2]n (HKUST-1; btc: 1,3,5-benzenetricaboxylate) with adsorbed methanol (CH3OH), 13C enriched carbon monoxide and dioxide (13CO, 13CO2), hydrogen (H2), deuterium (D2) and mixed isotopic HD. In [Cu3(btc)2]n, the Cu2+ ions are connected to binuclear Cu/Cu paddle wheel units. Since the Cu2+ ions in the [Cu3(btc)2]n are antiferromagnetically coupled, the new compound [Cu2.97Zn0.03(btc)2]n is synthesized by isomorphous substitution containing about 1 % paramagnetic Cu/Zn paddle wheel units. The modified Cu/Zn paddle wheel units prove to be a very sensitive probe for the interactions with the adsorbed molecules. Secondly, the exchange interactions of antiferromagnetically coupled Cu/Cu paddle wheel units as well as additional inter-paddle wheel exchange interactions between the Cu/Cu pairs are studied in [Cu2(bdc)2(dabco)]n, a layered MOF with 1,4-benzenedicaboxylate (bdc) as linker and 1,4-diazabicyclo[2.2.2]octane (dabco) acting as pillars between the layers. In comparison to [Cu3(btc)2]n, the additional inter-paddle wheel exchange interactions are much easier disturbed by incorporation of Zn2+ ions into the framework structure. Third, the structural dynamics of the framework is investigated in the compound [Al(OH)(bdc)]n (MIL-53) which was isomorphously substituted by V(III)/V(IV) species. The 51V hyperfine structure revealed to be sensitive to the so-called breathing effect, a flexible structural behaviour upon guest adsorption/desorption or upon thermal treatment. It is shown that the aluminum ions can be substituted by vanadium but the octahedral coordination environment changes slightly to a pseudo-octahedral or a square-pyramidal coordination. Based on the hyperfine interactions between the electron spin and the nuclear spins of the surrounding atoms, structural models can be derived from orientation-selective measurements. In such a way, structural information of materials like powder samples and adsorbate complexes can be obtained which are hardly or even not accessible by other methods.:1 Introduction 1.1 Electron paramagnetic resonance spectroscopy for investigation of porous materials 1.2 Metal-organic frameworks 1.3 Implementation of paramagnetism by isomorphous substitution 1.4 EPR spectroscopic methods 1.4.1 Spin Hamiltonian 1.4.2 cw EPR spectroscopy 1.4.3 Pulsed EPR spectroscopy 1.5 Description of the project 2 [Cu2.97Zn0.03(btc)2]n 2.1 Introduction: Monometallic [Cu3(btc)2]n (1) 2.1.1 Spin coupling 2.1.2 Adsorption of H2O 2.1.3 Adsorption of DTBN 2.2 Isomorphous substitution of Cu2+ by Zn2+ in [Cu3(btc)2]n 2.2.1 Synthesis and characterisation of [Cu2.97Zn0.03(btc)2]n (2) 2.2.2 cw EPR spectroscopy of 2 2.2.3 Pulsed EPR spectroscopy of 2 2.2.4 Summary: Zn2+ substitution 2.3 Adsorption of methanol (MeOH) on [Cu2.97Zn0.03(btc)2]n (2_MeOH) 2.3.1 cw EPR spectroscopy of 2_MeOH 2.3.2 Pulsed EPR spectroscopy of 2_MeOH 2.3.3 Discussion 2.3.4 Summary: adsorption of MeOH 2.4 Adsorption of 13CO2 and 13CO on [Cu2.97Zn0.03(btc)2]n (2_CO2, 2_CO) 2.4.1 cw EPR spectroscopy of 2_CO2 and 2_CO 2.4.2 Pulsed EPR spectroscopy of 2_CO2 and 2_CO 2.4.3 Discussion 2.4.4 Summary: adsorption of 13CO2 and 13CO 2.5 Adsorption of H2, D2 and HD on [Cu2.97Zn0.03(btc)2]n (2_HH, 2_DD and 2_HD) 2.5.1 cw EPR spectroscopy of 2_HH, 2_DD and 2_HD 2.5.2 Pulsed EPR spectroscopy of 2_HH, 2_DD and 2_HD 2.5.2.1 3p ESEEM spectroscopy of 2_HH, 2_DD and 2_HD 2.5.2.2 Davies-ENDOR spectroscopy of 2_HH 2.5.2.3 Davies-ENDOR spectroscopy of 2_HD 2.5.2.4 Davies-ENDOR spectroscopy of 2_DD 2.5.3 Discussion 2.5.4 Summary: adsorption of H2, D2 and HD 2.6 Conclusion: [Cu2.97Zn0.03(btc)2]n 3 [Cu2(bdc)2(dabco)]n (3) and [Cu(2-x)Zn(x)(bdc)2(dabco)]n (3_x) 3.1 [Cu2(bdc)2(dabco)]n (3) 3.2 [Cu1.9Zn0.1(bdc)2(dabco)]n (3_0.1) 3.3 [Cu(2-x)Zn(x)(bdc)2(dabco)]n (3_0.5, 3_1.0, 3_1.5 and 3_1.9) 3.4 Determination of the exchange coupling constant J 3.5 Discussion 3.6 Conclusions: [Cu(2-x)Zn(x)(bdc)2(dabco)]n (3_x) 4 [(AlOH)1-x(VO)x(bdc)]n (4) and [(AlOH)1-x(VO)x(ndc)]n (5) 4.1 Introduction 4.2 EPR spectroscopic investigations of mixed-metal bdc compounds 4.3 EPR spectroscopic investigations of mixed-metal ndc compounds 4.4: Conclucions: V(III)/V(IV) substitution in [Al(OH)(bdc)]n and [Al(OH)(ndc)]n 5 Summary and Conclusion 5.1 Host-guest interactions 5.2 Exchange couplings of Cu/Cu pairs 5.3 Structural dynamics of the bdc and the ndc framework 5.4 Conclusion 6 Appendix 6.1 Experimental details and additional spectra 6.2 Instrumental details 6.3 Curriculum vitae and publications

info:eu-repo/classification/ddc/530

ddc:530